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Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip Calculator

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Length of Fin is the measurement of fin.Length of Fin [Lfin]
+10%
-10%
Thickness of Fin is the distance through a fin.Thickness of Fin [tfin]
+10%
-10%
Correction Length for Thin Rectangular Fin refers to the distance from the base to the location where the temperature profile deviates from the idealized uniform temperature.Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip [Lrectangular]
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Formula

Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip

Formula
`"L"_{"rectangular"} = "L"_{"fin"}+("t"_{"fin"}/2)`

Example
`"3.6m"="3m"+("1.2m"/2)`

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Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip Solution

STEP 0: Pre-Calculation Summary
Formula Used
Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2)
Lrectangular = Lfin+(tfin/2)
This formula uses 3 Variables
Variables Used
Correction Length for Thin Rectangular Fin - (Measured in Meter) - Correction Length for Thin Rectangular Fin refers to the distance from the base to the location where the temperature profile deviates from the idealized uniform temperature.
Length of Fin - (Measured in Meter) - Length of Fin is the measurement of fin.
Thickness of Fin - (Measured in Meter) - Thickness of Fin is the distance through a fin.
STEP 1: Convert Input(s) to Base Unit
Length of Fin: 3 Meter --> 3 Meter No Conversion Required
Thickness of Fin: 1.2 Meter --> 1.2 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Lrectangular = Lfin+(tfin/2) --> 3+(1.2/2)
Evaluating ... ...
Lrectangular = 3.6
STEP 3: Convert Result to Output's Unit
3.6 Meter --> No Conversion Required
FINAL ANSWER
3.6 Meter <-- Correction Length for Thin Rectangular Fin
(Calculation completed in 00.004 seconds)
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9 Heat Transfer from Extended Surfaces (Fins) Calculators

Heat Dissipation from Fin Losing Heat at End Tip
Go Fin Heat Transfer Rate = (sqrt(Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area))*(Surface Temperature-Surrounding Temperature)*((tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin)+(Heat Transfer Coefficient)/(Thermal Conductivity of Fin*(sqrt(Perimeter of Fin*Heat Transfer Coefficient/Thermal Conductivity of Fin*Cross Sectional Area)))))/(1+tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin*(Heat Transfer Coefficient)/(Thermal Conductivity of Fin*(sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area))))))
Heat Dissipation from Fin Insulated at End Tip
Go Fin Heat Transfer Rate = (sqrt((Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area)))*(Surface Temperature-Surrounding Temperature)*tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin)
Heat Dissipation from Infinitely Long Fin
Go Fin Heat Transfer Rate = ((Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area)^0.5)*(Surface Temperature-Surrounding Temperature)
Heat Transfer in Fins given Fin Efficiency
Go Fin Heat Transfer Rate = Overall Heat Transfer Coefficient*Area*Fin Efficiency*Overall Difference in Temperature
Newton's Law of Cooling
Go Heat Flux = Heat Transfer Coefficient*(Surface Temperature-Temperature of Characteristic Fluid)
Biot Number using Characteristic Length
Go Biot Number = (Heat Transfer Coefficient*Characteristic Length)/(Thermal Conductivity of Fin)
Correction Length for Cylindrical Fin with Non-Adiabatic Tip
Go Correction Length for Cylindrical Fin = Length of Fin+(Diameter of Cylindrical Fin/4)
Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip
Go Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2)
Correction Length for Square Fin with Non-Adiabatic Tip
Go Correction Length for Sqaure Fin = Length of Fin+(Width of Fin/4)

20 Heat Transfer from Extended Surfaces (Fins), Critical Thickness of Insulation and Thermal Resistance Calculators

Heat Dissipation from Fin Losing Heat at End Tip
Go Fin Heat Transfer Rate = (sqrt(Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area))*(Surface Temperature-Surrounding Temperature)*((tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin)+(Heat Transfer Coefficient)/(Thermal Conductivity of Fin*(sqrt(Perimeter of Fin*Heat Transfer Coefficient/Thermal Conductivity of Fin*Cross Sectional Area)))))/(1+tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin*(Heat Transfer Coefficient)/(Thermal Conductivity of Fin*(sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area))))))
Heat Dissipation from Fin Insulated at End Tip
Go Fin Heat Transfer Rate = (sqrt((Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area)))*(Surface Temperature-Surrounding Temperature)*tanh((sqrt((Perimeter of Fin*Heat Transfer Coefficient)/(Thermal Conductivity of Fin*Cross Sectional Area)))*Length of Fin)
Heat Dissipation from Infinitely Long Fin
Go Fin Heat Transfer Rate = ((Perimeter of Fin*Heat Transfer Coefficient*Thermal Conductivity of Fin*Cross Sectional Area)^0.5)*(Surface Temperature-Surrounding Temperature)
Thermal Resistance for Conduction at Tube Wall
Go Thermal Resistance = (ln(Outer Radius of Cylinder/Inner Radius of Cylinder))/(2*pi*Thermal Conductivity*Length of Cylinder)
Heat Transfer in Fins given Fin Efficiency
Go Fin Heat Transfer Rate = Overall Heat Transfer Coefficient*Area*Fin Efficiency*Overall Difference in Temperature
Newton's Law of Cooling
Go Heat Flux = Heat Transfer Coefficient*(Surface Temperature-Temperature of Characteristic Fluid)
Biot Number using Characteristic Length
Go Biot Number = (Heat Transfer Coefficient*Characteristic Length)/(Thermal Conductivity of Fin)
Critical Radius of Insulation of Hollow Sphere
Go Critical Radius of Insulation = 2*Thermal Conductivity of Insulation/External Convection Heat Transfer Coefficient
Critical Radius of Insulation of Cylinder
Go Critical Radius of Insulation = Thermal Conductivity of Insulation/External Convection Heat Transfer Coefficient
Correction Length for Cylindrical Fin with Non-Adiabatic Tip
Go Correction Length for Cylindrical Fin = Length of Fin+(Diameter of Cylindrical Fin/4)
Outside Heat Transfer Coefficient given Thermal Resistance
Go External Convection Heat Transfer Coefficient = 1/(Thermal Resistance*Outside Area)
Thermal Resistance for Convection at Outer Surface
Go Thermal Resistance = 1/(External Convection Heat Transfer Coefficient*Outside Area)
Outside Area given Outer Thermal Resistance
Go Outside Area = 1/(External Convection Heat Transfer Coefficient*Thermal Resistance)
Inner Heat Transfer Coefficient given Inner Thermal Resistance
Go Inside Convection Heat Transfer Coefficient = 1/(Inside Area*Thermal Resistance)
Inside Area given Thermal Resistance for Inner Surface
Go Inside Area = 1/(Inside Convection Heat Transfer Coefficient*Thermal Resistance)
Thermal Resistance for Convection at Inner Surface
Go Thermal Resistance = 1/(Inside Area*Inside Convection Heat Transfer Coefficient)
Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip
Go Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2)
Volumetric Heat Generation in Current Carrying Electrical Conductor
Go Volumetric Heat Generation = (Electric Current Density^2)*Resistivity
Total Thermal Resistance
Go Total Thermal Resistance = 1/(Overall Heat Transfer Coefficient*Area)
Correction Length for Square Fin with Non-Adiabatic Tip
Go Correction Length for Sqaure Fin = Length of Fin+(Width of Fin/4)

Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip Formula

Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2)
Lrectangular = Lfin+(tfin/2)

What is Heat transfer through fins?

Fins are extensions on exterior surfaces of objects that increase the rate of heat transfer to or from the object by increasing convection.

How to Calculate Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip?

Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip calculator uses Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2) to calculate the Correction Length for Thin Rectangular Fin, Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip refers to the distance from the fin base to the location where the temperature profile deviates significantly from the idealized uniform temperature distribution along the fin. Correction Length for Thin Rectangular Fin is denoted by Lrectangular symbol.

How to calculate Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip using this online calculator? To use this online calculator for Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip, enter Length of Fin (Lfin) & Thickness of Fin (tfin) and hit the calculate button. Here is how the Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip calculation can be explained with given input values -> 3.6 = 3+(1.2/2).

FAQ

What is Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip?
Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip refers to the distance from the fin base to the location where the temperature profile deviates significantly from the idealized uniform temperature distribution along the fin and is represented as Lrectangular = Lfin+(tfin/2) or Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2). Length of Fin is the measurement of fin & Thickness of Fin is the distance through a fin.
How to calculate Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip?
Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip refers to the distance from the fin base to the location where the temperature profile deviates significantly from the idealized uniform temperature distribution along the fin is calculated using Correction Length for Thin Rectangular Fin = Length of Fin+(Thickness of Fin/2). To calculate Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip, you need Length of Fin (Lfin) & Thickness of Fin (tfin). With our tool, you need to enter the respective value for Length of Fin & Thickness of Fin and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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